Molecular Analysis of Diepoxybutane-Induced Mutations at the rosy Locus of Drosophila melanogaster

Abstract

We have analyzed at the molecular level diepoxybutane-induced mutants determined to have lesions affecting expression of the ry locus. Of the 21 mutants analyzed here, genetic analysis suggested that five were putative deficiencies involving ry and adjacent lethal loci. However, molecular analysis confirmed that only two of these five putative deficiencies were in fact deletions detectable by the methods used in the analysis. The remaining 16 mutants were viable as homozygotes, suggesting that their lesions were confined to the ry locus. Seven of these 16 intragenic mutants were determined to be deletions of genetic material as evidenced by altered restriction patterns relative to the wild type patterns. Thus, nine of 21 (43%) diepoxybutane-induced mutants are due to deletions ranging in size from approximately 50 base pairs to more than 8 kilobase pairs. Most of the deletions (seven of nine or 78%) are intragenic and less than 250 base pairs in size; it seems that most, if not all, affect coding rather than regulatory sequences.